Law Of Motion in a sentence

(1) Newton's first law of motion deals with inertia.

(2) The law of motion is based on the concept of inertia.

(3) The law of motion is based on the principle of inertia.

(4) The law of motion is a cornerstone of classical mechanics.

(5) Newton's law of motion is a cornerstone of modern physics.

(6) The law of motion helps us understand the concept of momentum.

(7) Newton's law of motion is a cornerstone of classical mechanics.

(8) Newton's law of motion is why a pendulum swings back and forth.

(9) The law of motion allows us to analyze the motion of projectiles.

(10) The second law of motion is a cornerstone of classical mechanics.

Law Of Motion sentence

(11) The law of motion is fundamental to our understanding of physics.

(12) Newton's law of motion explains the behavior of objects in motion.

(13) The concept of inertia is central to Newton's first law of motion.

(14) Newton's law of motion is a key concept in the study of mechanics.

(15) The law of motion explains how forces affect the motion of objects.

(16) Newton's law of motion laid the foundation for the study of dynamics.

(17) The law of motion is applicable to both linear and rotational motion.

(18) Newton's law of motion is a fundamental concept in physics education.

(19) The law of motion applies to both macroscopic and microscopic objects.

(20) The law of motion is applicable to both stationary and moving objects.

Law Of Motion make sentence

(21) One of the fundamental principles of physics is Newton's law of motion.

(22) Rockets are propelled by the principle of Newton's third law of motion.

(23) The law of motion helps us understand why objects move the way they do.

(24) The third law of motion is applicable to both linear and angular motion.

(25) Newton's law of inertia is often referred to as the first law of motion.

(26) Newton's law of motion helps explain why objects move in the way they do.

(27) Jet propulsion is based on the principle of Newton's third law of motion.

(28) The second law of motion is often referred to as the law of acceleration.

(29) Newton's law of motion is a fundamental concept in the study of dynamics.

(30) Newton's law of motion is applicable to both linear and rotational motion.

Sentence of law of motion

(31) Newton's law of motion is often used to analyze the motion of projectiles.

(32) The third law of motion is a fundamental principle in classical mechanics.

(33) Newton's law of motion is used to calculate the trajectory of projectiles.

(34) The law of motion allows us to calculate the net force acting on an object.

(35) The law of motion helps us understand why objects accelerate or decelerate.

(36) The law of motion is essential for studying the dynamics of moving objects.

(37) Newton's law of motion is a fundamental principle in the field of mechanics.

(38) Rocket propulsion is based on the principle of Newton's third law of motion.

(39) Newton's law of motion is why a tennis ball bounces when it hits the ground.

(40) Newton's law of motion revolutionized our understanding of how objects move.

Law Of Motion meaningful sentence

(41) The second law of motion is applicable to both linear and rotational motion.

(42) The first law of Newton's law of motion is also known as the law of inertia.

(43) The third law of motion is applicable to both stationary and moving objects.

(44) The law of motion applies to all objects, regardless of their size or shape.

(45) The law of action and reaction is also known as Newton's third law of motion.

(46) Newton's law of motion is based on the principle of conservation of momentum.

(47) Newton's law of motion explains how objects move and interact with each other.

(48) The law of motion explains why objects tend to resist changes in their motion.

(49) The conservation of momentum is a consequence of Newton's third law of motion.

(50) The third law of motion is based on the principle of conservation of momentum.

Law Of Motion sentence examples

(51) The law of motion is crucial in understanding the behavior of fluids and gases.

(52) Newton's law of motion is a fundamental building block in the study of physics.

(53) The third law of motion is applicable to both elastic and inelastic collisions.

(54) The law of motion helps us predict the behavior of objects in various scenarios.

(55) The law of motion explains why objects tend to resist changes in their velocity.

(56) The force diagram helped us explain the concept of Newton's third law of motion.

(57) Newton's law of motion is crucial in designing efficient transportation systems.

(58) Newton's law of motion is used to analyze the forces acting on a moving vehicle.

(59) Newton's law of motion is applicable to both macroscopic and microscopic objects.

(60) The first law of motion is a direct consequence of Newton's second law of motion.

Sentence with law of motion

(61) Newton's second law of motion is often used to analyze the motion of projectiles.

(62) The law of conservation of momentum is derived from Newton's third law of motion.

(63) Newton's law of motion is applicable to both macroscopic and microscopic systems.

(64) Newton's law of motion is essential in designing safety features for automobiles.

(65) Newton's third law of motion is a cornerstone principle in the study of mechanics.

(66) The first law of motion is applicable to both macroscopic and microscopic objects.

(67) The law of motion allows us to analyze the motion of objects in various scenarios.

(68) Newton's law of motion is the basis for understanding the mechanics of fluid flow.

(69) The concept of Newton's third law of motion is fundamental in the field of physics.

(70) Newton's third law of motion is based on the principle of conservation of momentum.

Use law of motion in a sentence

(71) The law of motion is a fundamental concept in understanding the behavior of matter.

(72) Newton's law of motion is used to analyze the forces acting on a swinging pendulum.

(73) Newton's third law of motion is often referred to as the law of action and reaction.

(74) The concept of Newton's third law of motion is often used in engineering and design.

(75) Newton's third law of motion can be observed in the movement of birds during flight.

(76) The law of motion is a fundamental principle in understanding the behavior of waves.

(77) Newton's law of motion is applicable to objects of all sizes, from atoms to planets.

(78) Newton's law of motion is fundamental to understanding the mechanics of the universe.

(79) Newton's law of motion can be used to calculate the force required to move an object.

(80) Understanding the law of motion is crucial in fields such as engineering and physics.

Sentence using law of motion

(81) Newton's law of motion is based on the principle that forces cause changes in motion.

(82) Newton's law of motion is fundamental in explaining the behavior of celestial bodies.

(83) Newton's law of motion is essential in analyzing the forces acting on a spinning top.

(84) The concept of Newton's third law of motion is taught in introductory physics courses.

(85) The law of motion is essential in designing vehicles and predicting their performance.

(86) The law of motion helps us understand the behavior of objects in gravitational fields.

(87) The second law of motion is often used to calculate the net force acting on an object.

(88) Newton's law of motion is a fundamental principle in the study of classical mechanics.

(89) Newton's law of motion is used to study the behavior of particles in a magnetic field.

(90) The concept of Newton's third law of motion is often used in the field of biomechanics.

Law Of Motion example sentence

(91) Newton's law of motion is why a skateboarder moves forward when pushing off the ground.

(92) The third law of motion is applicable to both macroscopic and microscopic interactions.

(93) The third law of motion is crucial in understanding the mechanics of rocket propulsion.

(94) Newton's third law of motion is applicable to both macroscopic and microscopic systems.

(95) The law of motion provides a mathematical framework for analyzing the motion of objects.

(96) Newton's law of motion is crucial in understanding the behavior of waves and vibrations.

(97) Newton's law of motion is employed in the field of biomechanics to study human movement.

(98) Newton's law of motion is fundamental in understanding the behavior of objects in motion.

(99) The law of motion is crucial for understanding the behavior of celestial bodies in space.

(100) The second law of motion is essential for understanding the dynamics of objects in motion.

Sentence with word law of motion

(101) Understanding Newton's law of motion is crucial in fields such as engineering and physics.

(102) Newton's law of motion is essential in understanding the behavior of objects in free fall.

(103) The second law of motion is crucial in understanding the behavior of objects in free fall.

(104) The understanding of Newton's third law of motion is crucial in the field of biomechanics.

(105) Newton's third law of motion explains why rockets are able to propel themselves into space.

(106) The second law of motion is one of the three laws of motion formulated by Sir Isaac Newton.

(107) The third law of motion is essential in understanding the behavior of objects in free fall.

(108) The third law of motion is a fundamental principle in understanding the behavior of fluids.

(109) Newton's law of motion is fundamental in understanding the behavior of atoms and molecules.

(110) Newton's law of motion is used to study the behavior of particles in a gravitational field.

Sentence of law of motion

(111) Newton's third law of motion is often used to explain the behavior of waves and vibrations.

(112) The concept of Newton's third law of motion is applicable to both linear and angular motion.

(113) Understanding Newton's law of motion is crucial for comprehending the principles of physics.

(114) The third law of motion is often used to explain the recoil of firearms when they are fired.

(115) Newton's law of motion is employed in the design of sports equipment to enhance performance.

(116) The concept of Newton's third law of motion is applicable to both static and dynamic systems.

(117) Newton's law of motion provides a mathematical framework for analyzing the motion of objects.

(118) Newton's law of motion allows us to predict the motion of objects under different conditions.

(119) The second law of motion is essential in understanding the behavior of objects in collisions.

(120) The law of motion helps us understand the relationship between force, mass, and acceleration.

Law Of Motion used in a sentence

(121) Newton's law of motion states that for every action, there is an equal and opposite reaction.

(122) The study of Newton's third law of motion is crucial in designing efficient sports equipment.

(123) Newton's third law of motion can be used to explain the recoil of a jet engine during takeoff.

(124) Newton's law of motion is the basis for understanding how rockets propel themselves into space.

(125) The law of motion allows us to calculate the acceleration of an object given the applied force.

(126) The law of motion is a fundamental principle in understanding the behavior of celestial bodies.

(127) Newton's law of motion is still widely used today to explain the behavior of objects in motion.

(128) The third law of motion is crucial in understanding the dynamics of collisions between objects.

(129) The concept of Newton's third law of motion can be extended to fluid dynamics and aerodynamics.

(130) The concept of Newton's third law of motion can be applied to the behavior of gases and fluids.

Law Of Motion sentence in English

(131) Newton's third law of motion is a fundamental principle in understanding the behavior of forces.

(132) Newton's law of motion is based on the concept of force and its effect on the motion of objects.

(133) Newton's law of motion is a fundamental principle that underlies many other branches of physics.

(134) Newton's law of motion is a fundamental principle in understanding the dynamics of the universe.

(135) Newton's law of motion provides a mathematical framework for understanding the motion of objects.

(136) Newton's law of motion is why a soccer ball slows down and eventually stops rolling on the grass.

(137) Newton's law of motion is why a basketball changes direction when it is passed to another player.

(138) Newton's third law of motion is essential in understanding the behavior of objects in collisions.

(139) Newton's third law of motion can be used to explain the recoil of a firearm after firing a bullet.

(140) Newton's third law of motion is a universal principle that applies to all objects in the universe.

(141) The second law of motion is a fundamental concept that underlies many other principles in physics.

(142) Newton's law of motion helps us understand the relationship between force, mass, and acceleration.

(143) The third law of motion is often used to explain the behavior of objects in orbit around a planet.

(144) The third law of motion is fundamental in understanding the behavior of objects in fluid dynamics.

(145) The laws of motion formulated by Sir Isaac Newton are collectively known as Newton's law of motion.

(146) Newton's law of motion allows us to predict and explain the motion of objects in various scenarios.

(147) The second law of motion is a fundamental principle that governs the behavior of objects in motion.

(148) The second law of motion, also known as Newton's second law, is a fundamental principle in physics.

(149) Newton's third law of motion states that for every action, there is an equal and opposite reaction.

(150) Understanding Newton's law of motion is crucial in comprehending the behavior of objects in motion.

(151) The application of Newton's third law of motion is crucial in designing safe and efficient vehicles.

(152) Understanding Newton's third law of motion is essential in analyzing the motion of celestial bodies.

(153) The second law of motion helps explain why it is easier to push a lighter object than a heavier one.

(154) The third law of motion is crucial in understanding the mechanics of propulsion systems in aircraft.

(155) Newton's law of motion is utilized in the field of robotics to develop efficient locomotion systems.

(156) Newton's third law of motion is a key principle in understanding the mechanics of sports activities.

(157) Newton's third law of motion helps explain why objects in space continue to orbit around each other.

(158) The application of Newton's third law of motion is crucial in designing efficient propulsion systems.

(159) Newton's third law of motion can be used to explain the recoil of a cannon after firing a projectile.

(160) The laws of motion described by Newton's law of motion are still considered valid in most situations.

(161) The law of motion allows us to predict how objects will move under the influence of different forces.

(162) Newton's third law of motion is a fundamental principle in understanding the behavior of projectiles.

(163) Newton's third law of motion is one of the three laws that form the foundation of classical mechanics.

(164) Newton's third law of motion is a fundamental principle that governs the behavior of forces in nature.

(165) Understanding the second law of motion is crucial for comprehending the behavior of objects in motion.

(166) The first law of motion is a foundational concept in physics that has been widely accepted and tested.

(167) The law of motion allows us to calculate the forces acting on an object and predict its future motion.

(168) Newton's law of motion provides a fundamental framework for studying the dynamics of physical systems.

(169) The understanding of Newton's third law of motion is essential in analyzing collisions between objects.

(170) Newton's law of motion provides a fundamental understanding of how forces affect the motion of objects.

(171) Newton's law of motion provides a framework for analyzing the motion of objects in a systematic manner.

(172) Newton's law of motion is often used to calculate the forces acting on objects in real-world scenarios.

(173) The second law of motion is crucial in determining the motion of objects in various physical scenarios.

(174) The law of motion is a fundamental principle in physics that governs the behavior of objects in motion.

(175) Newton's law of motion is utilized in the field of acoustics to understand the behavior of sound waves.

(176) The principle of Newton's third law of motion is applicable to both macroscopic and microscopic systems.

(177) Newton's second law of motion is a powerful tool for analyzing the motion of objects in complex systems.

(178) Newton's second law of motion is a key principle in classical mechanics that has stood the test of time.

(179) Newton's third law of motion helps explain why swimming is possible by propelling oneself through water.

(180) Understanding Newton's third law of motion is crucial in comprehending the dynamics of objects in motion.

(181) The second law of motion is based on the principle that force is equal to the rate of change of momentum.

(182) The second law of motion is often used to calculate the force required to lift an object against gravity.

(183) The law of motion allows us to analyze the forces acting on an object and determine its resulting motion.

(184) The concept of Newton's third law of motion is integral to the study of energy transfer and conservation.

(185) Newton's law of motion allows us to calculate the motion of objects under the influence of various forces.

(186) Newton's law of motion is a fundamental concept in physics that governs the behavior of objects in motion.

(187) Understanding Newton's law of motion is essential for understanding the fundamental principles of physics.

(188) The first law of motion is a fundamental principle that governs the motion of all objects in the universe.

(189) The second law of motion helps us understand why it is harder to push a heavier object than a lighter one.

(190) The third law of motion is crucial in understanding the mechanics of sports such as soccer and basketball.

(191) Newton's third law of motion is a cornerstone principle in understanding the behavior of forces in nature.

(192) Newton's law of motion is still widely used today to analyze and predict the behavior of objects in motion.

(193) The law of motion explains why objects tend to move in straight lines unless acted upon by external forces.

(194) The first law of motion is a foundational principle that underlies many other laws and theories in physics.

(195) Newton's law of motion explains how an object's velocity changes when it is subjected to an external force.

(196) The understanding of Newton's third law of motion is crucial in designing efficient energy transfer systems.

(197) The third law of motion is fundamental in understanding how objects interact and move in the physical world.

(198) The first law of motion, proposed by Sir Isaac Newton, revolutionized our understanding of how objects move.

(199) Newton's third law of motion can be observed in everyday situations, such as when a ball bounces off a wall.

(200) The law of motion states that an object at rest tends to stay at rest unless acted upon by an external force.

(201) The second law of motion explains how the acceleration of an object is influenced by the force applied to it.

(202) The first law of motion is a fundamental concept that helps us understand why objects behave the way they do.

(203) The understanding of Newton's third law of motion is essential in space exploration and satellite technology.

(204) Newton's law of motion states that an object at rest will stay at rest unless acted upon by an external force.

(205) The third law of Newton's law of motion states that for every action, there is an equal and opposite reaction.

(206) Newton's law of motion is based on the principle that force is required to change an object's state of motion.

(207) The application of Newton's third law of motion can be seen in the design of efficient transportation systems.

(208) The laws of motion described by Newton's law of motion are applicable to both terrestrial and celestial bodies.

(209) The first law of motion states that an object at rest will stay at rest unless acted upon by an external force.

(210) The second law of motion is a fundamental concept in physics that has practical applications in various fields.

(211) The second law of motion is often used to calculate the force required to overcome friction and move an object.

(212) The second law of Newton's law of motion relates the force applied to an object with its mass and acceleration.

(213) The second law of motion is based on the principle that force is required to change an object's state of motion.

(214) Newton's law of motion is employed in the field of aerospace engineering to design efficient propulsion systems.

(215) The first law of motion is a cornerstone of classical mechanics and forms the basis for many other physical laws.

(216) The first law of motion is a fundamental principle that applies to all objects, regardless of their size or mass.

(217) According to the second law of motion, an object will accelerate in the direction of the net force applied to it.

(218) The second law of motion allows us to calculate the force required to accelerate an object to a certain velocity.

(219) The second law of motion is one of the three laws proposed by Sir Isaac Newton to describe the motion of objects.

(220) Newton's second law of motion revolutionized the field of physics and laid the foundation for classical mechanics.

(221) The second law of motion is a fundamental concept in physics that helps explain the behavior of objects in motion.

(222) The first law of motion is fundamental to understanding the behavior of objects in the absence of external forces.

(223) The second law of motion explains how the velocity of an object changes when it is subjected to an external force.

(224) The second law of motion is a fundamental building block in understanding the laws that govern the physical world.

(225) The third law of motion helps explain why a person can jump off a diving board and propel themselves into the air.

(226) Newton's law of motion states that an object at rest tends to stay at rest unless acted upon by an external force.

(227) The study of Newton's third law of motion allows engineers to design structures that can withstand external forces.

(228) The second law of motion is a powerful tool for predicting and analyzing the motion of objects in various scenarios.

(229) Newton's third law of motion is often demonstrated through the use of simple experiments involving everyday objects.

(230) The laws of motion described by Newton's law of motion are based on empirical observations and mathematical analysis.

(231) The first law of motion is often demonstrated using experiments involving objects on inclined planes or in free fall.

(232) The second law of motion helps explain why objects with different masses accelerate differently under the same force.

(233) The second law of motion is often used to calculate the force required to accelerate an object to a certain velocity.

(234) The law of motion explains why objects tend to keep moving in a straight line unless acted upon by an external force.

(235) Newton's third law of motion explains why a rocket propels forward when gases are expelled in the opposite direction.

(236) The application of Newton's third law of motion is evident in the design of efficient engines and propulsion systems.

(237) The first law of motion is a fundamental principle that explains how objects move when no forces are acting upon them.

(238) Newton's first law of motion, also known as the law of inertia, explains the behavior of objects at rest or in motion.

(239) The discovery of Newton's third law of motion revolutionized the understanding of how objects interact with each other.

(240) Newton's second law of motion explains how the velocity of an object changes when it is subjected to an external force.

(241) Newton's law of motion can be applied to everyday situations, such as the movement of vehicles or the flight of a ball.

(242) The laws of motion outlined by Newton's law of motion are essential for understanding the behavior of objects in motion.

(243) The first law of motion is a key concept in understanding the behavior of objects in the absence of external influences.

(244) The second law of motion is fundamental in understanding the behavior of objects under the influence of external forces.

(245) The basic law of motion can be observed in everyday life when a moving car comes to a stop after the brakes are applied.

(246) The second law of motion states that the force acting on an object is directly proportional to its mass and acceleration.

(247) The basic law of motion can be observed when a ball is thrown into the air and eventually falls back down due to gravity.

(248) The practical applications of Newton's third law of motion can be seen in the development of safety features in vehicles.

(249) The third law of motion explains why a rocket is able to propel itself forward by expelling gas in the opposite direction.

(250) The first law of motion is a fundamental principle that governs the behavior of objects in the absence of external forces.

(251) According to Newton's law of motion, the acceleration of an object is directly proportional to the net force acting on it.

(252) Newton's law of motion provides a framework for understanding the cause and effect relationship between forces and motion.

(253) The first law of motion, also known as the law of inertia, explains how objects behave when no forces are acting upon them.

(254) The first law of motion is a fundamental concept in physics that has been tested and verified through numerous experiments.

(255) The third law of motion helps explain why a swimmer can move forward by pushing against the water with their arms and legs.

(256) The basic law of motion is fundamental to understanding the behavior of objects in motion, such as projectiles or vehicles.

(257) Newton's third law of motion helps explain why objects at rest tend to stay at rest unless acted upon by an external force.

(258) The study of Newton's third law of motion allows scientists to predict the outcome of various interactions between objects.

(259) The second law of motion allows scientists to predict the acceleration of an object based on the applied force and its mass.

(260) The first law of motion is a crucial principle in physics that helps us explain the motion of objects in our everyday lives.

(261) The second law of motion is a fundamental principle that governs the behavior of objects in the presence of external forces.

(262) The second law of motion is a fundamental concept that helps explain the relationship between force, mass, and acceleration.

(263) The third law of motion explains why a rocket is able to propel itself forward by expelling gases in the opposite direction.

(264) The second law of motion provides a mathematical framework for analyzing the motion of objects under the influence of forces.

(265) According to the second law of motion, the acceleration of an object is directly proportional to the net force applied to it.

(266) In accordance with the third law of motion, when you push against a wall, the wall pushes back with an equal amount of force.

(267) Newton's first law of motion states that an object will remain in its state of motion unless acted upon by an external force.

(268) The basic law of motion states that an object at rest tends to stay at rest, and an object in motion tends to stay in motion.

(269) The laws of motion formulated by Newton's law of motion are still widely used in engineering and other scientific disciplines.

(270) The third law of motion is one of the three laws formulated by Sir Isaac Newton to describe the behavior of objects in motion.

(271) The third law of motion is a fundamental principle that underlies the study of mechanics and the behavior of objects in motion.

(272) Understanding the second law of motion is essential for engineers and scientists working in fields like mechanics and robotics.

(273) The first law of motion is a simple yet powerful concept that helps us understand the behavior of objects in our everyday lives.

(274) The second law of motion helps explain why it is easier to stop a moving object with a smaller mass than one with a larger mass.

(275) The first law of motion can be summarized as an object will remain in its state of motion unless acted upon by an external force.

(276) The first law of motion is a fundamental principle that describes how objects behave when no external forces are acting upon them.

(277) The first law of motion is a fundamental principle that helps explain why objects tend to resist changes in their state of motion.

(278) The second law of motion is a fundamental concept that has been tested and verified through countless experiments and observations.

(279) The first law of motion is often referred to as the law of inertia because it describes how objects resist changes in their motion.

(280) The second law of motion is a fundamental building block for understanding the laws of nature and the behavior of the physical world.

(281) The first law of motion is a fundamental principle in physics that describes the behavior of objects in the absence of external forces.

(282) The second law of motion is crucial for understanding the behavior of objects in both everyday situations and complex physical systems.

(283) The first law of motion is sometimes referred to as the law of inertia because it describes how objects resist changes in their motion.

(284) The second law of Newton's law of motion states that the force acting on an object is equal to its mass multiplied by its acceleration.

(285) According to the law of motion, an object in motion will continue moving at a constant velocity unless acted upon by an external force.

(286) The first law of motion was formulated by Sir Isaac Newton and is one of the three laws that form the foundation of classical mechanics.

(287) The first law of motion is often used to explain why objects tend to keep moving or stay at rest unless acted upon by an external force.

(288) Newton's second law of motion can be mathematically expressed as F = ma, where F is the force, m is the mass, and a is the acceleration.

(289) According to the third law of motion, the force exerted by one object on another is always equal in magnitude but opposite in direction.

(290) The first law of motion is often illustrated using examples such as a ball rolling on a frictionless surface or a book sliding on a table.

(291) The first law of motion is often referred to as the law of inertia because it describes how objects tend to resist changes in their motion.

(292) The first law of motion is often used to explain why objects tend to keep moving in a straight line unless acted upon by an external force.

(293) The second law of motion is a cornerstone of classical mechanics and has numerous applications in various fields of science and engineering.

(294) The first law of motion is a fundamental concept in physics that helps explain the behavior of objects in the absence of external influences.

(295) According to the first law of motion, an object in motion will continue moving at a constant velocity unless acted upon by an external force.

(296) The first law of motion is a foundational concept in physics that helps explain the behavior of objects in the absence of external influences.

(297) The first law of motion is sometimes referred to as the law of inertia because it describes how objects resist changes in their state of motion.

(298) The first law of motion is a cornerstone of classical mechanics and is essential for understanding the behavior of objects in the physical world.

(299) The first law of motion is a fundamental principle that states an object will maintain its state of motion unless acted upon by an external force.

(300) According to the third law of motion, the force exerted by a person on a chair is equal and opposite to the force exerted by the chair on the person.

(301) The first law of motion is based on the observation that objects tend to keep doing what they are already doing unless something causes them to change.

(302) The first law of motion is a fundamental principle that states that objects will maintain their state of motion unless acted upon by an external force.

(303) According to the second law of motion, the acceleration of an object is inversely proportional to its mass when the force acting on it remains constant.

(304) According to the third law of motion, the force exerted by a car's tires on the road is equal and opposite to the force exerted by the road on the tires.

(305) The first law of motion is a fundamental principle that helps explain why objects tend to keep moving or stay at rest unless acted upon by an external force.

(306) According to the third law of motion, the force exerted by a person on a trampoline is equal and opposite to the force exerted by the trampoline on the person.

(307) According to the third law of motion, the force exerted by a person on a skateboard is equal and opposite to the force exerted by the skateboard on the person.

(308) According to the second law of motion, the acceleration of an object is directly proportional to the force applied to it and inversely proportional to its mass.

(309) The second law of motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass.

(310) The first law of motion states that an object will remain at rest or continue moving in a straight line at a constant speed unless acted upon by an external force.

(311) According to the third law of motion, the force exerted by a person on a diving board is equal and opposite to the force exerted by the diving board on the person.

(312) According to the third law of motion, the force exerted by a person on a bicycle pedal is equal and opposite to the force exerted by the pedal on the person's foot.

(313) Newton's second law of motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass.

(314) The first law of motion is often used to explain why objects in space continue moving in a straight line at a constant speed unless influenced by gravity or other forces.

(315) The first law of motion is a basic concept in physics that helps explain why objects tend to maintain their current state of motion unless something causes them to change.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Law Of Motion. They do not represent the opinions of TranslateEN.com.